Systematic Workflow via Intuitive GUI Easy operation accomplishes your goals faster than ever. 16
With the LEXT OLS4100, observation or measurement begins immediately once the sample is placed on the stage. Thanks to our easy three-step Imaging, Measurement and Reports process, measurement procedures can be quickly mastered, even by those not familiar with laser microscopy. The OLS4100 s macro map function allows wide-field image display of a sample under low magnification, with a rectangular observation marker on the macro sample image. The field of view can be set up to 441 (21x21) times wider than the conventional view. When used with the motorized six-lens nosepiece, the macro map function allows smooth, convenient, oneclick operation for stage movement and magnification. Accurate parfocality and objective centering can be preset and synchronized with one-click stage movement and magnification. Two stitching methods are available for scanning large areas: Manual mode for live image acquisition and Automatic mode for faster image acquisition. Operation is quick and simple 2D stitching starts automatically at the touch of a single button, and wide area images are acquired immediately. The stitching size is available from five steps in 3x3, 5x5, 7x7, 9x9, and 21x21 in Automatic mode. Unnecessary parts of the acquired images can also be removed manually with simple mouse/joystick operation. 17
Speed of image acquisition is significantly increased, with automatic adjustments for brightness and position across the Z-axis direction and planar surface. Conventional 3D scanning requires complicated settings that are difficult for novice users. With the LEXT OLS4100 s new Smart Scan mode, even first-time users can quickly acquire 3D images with a single click of a button. In addition to upper and lower limit settings, appropriate brightness level is automatically set up by the system based on the image to be captured, allowing even new users to obtain accurate height measurements and an optimized image. Upper/Lower Limit Setting Acquisition Pitch Setting Brightness Setting Upper Limit Setting Auto Recognition Lower Limit Setting Lowered to Preset Level Automatic Control Brightness Control on a Plane Brightness Control with a Range of Height Lower Limit Setting Brightness Setting Upper Limit Setting Brightness & Upper/ Lower Limit Check Click on Acquisition Button Acquisition Click on Acquisition Button Auto Lower Limit Setting Auto Upper Limit Setting Auto Brightness Setting Acquisition 18
The new Ultra-Fast mode allows scanned image acquisition at twice the speed of conventional Fast mode, and approximately nine times the speed of Fine mode. This makes it possible to measure micro-samples with very steep angles, such as the tip of a knife, which is difficult to observe due to fine Z-step movement and high magnification. Fine 1.0 Fast 5.5 Ultra-Fast 9.3 0 2 4 6 8 10 (images) Actual scanning time varies depending on magnification and Z-acquisition range. The OLS4100 also comes with a Band Scan mode for measurement of limited target areas, providing measurement performance 1/8th faster than conventional modes. 1024 X 128 Acquisition with a Full Scan Acquisition with Band Scan (1/8th ) 19
As in macro mapping, the area to be observed can be specified from a wide area map. In Automatic mode, an area map can be automatically generated in roughly half the time it normally takes by setting a rectangular stitching size of up to 625 images. Observation can begin immediately once the target area is specified on the area map. Individual 2D Images Before Stitching (Simulation) 2D Image After Stitching 3D Image After Stitching Stitching Area: Square (21x3) 63 Pieces Stitching Area: Circle (3 Points) In Live mode, the area to be observed can be selected manually by tracing the required region onscreen. This is ideal when the sample has an irregular shape. In Smart Scan mode, all it takes is the click of a button. As the location across the Z-axis is automatically adjusted, image acquisition in the Z-axis direction can be restricted to required areas only, for rapid high-power observation across a wide area. Measuring Areas in Z-Axis Direction Smart Scan Mode Conventional Acquisition Mode 20
The OLS4100 generates reports at the touch of a button after measurement, and an edit function allows the operator to customize each report template. Copying and pasting measured results into a word processing/spreadsheet application is also quite simple, as is retrieving required images/reports from a database. A detailed user-designed wizard function eliminates the need for lengthy training and allows quick and easy operation by new operators. Image A Image B Image C Image D 21
Basic Principles of the LEXT OLS4100 The lateral resolution of an optical microscope is defined largely by the parameters of the optics and the wavelength of the light source. With a 405 nm short-wavelength semiconductor laser, the LEXT OLS4100 enjoys a high lateral resolution in comparison to a conventional microscope using visible light with a 550 nm peak. 400 nm 600 nm 700 nm 800 nm OLS4100 Light Source (405 nm) Conventional Microscopes (550 nm peak) For 2D scanning, the OLS4100 incorporates an Olympus scanner-on-scanner. An electromagnetic MEMS scanner handles the X direction, while a high-precision Galvano mirror takes care of scanning in the Y direction. This innovative system enables the axis of the scanner and the exit pupil of the objective to be placed at an optically conjugate position. This ideal optical layout allows accurate high-speed, low-distortion X-Y scanning, enabling the OLS4100 to provide high-density scanning up to 4096 x 4096 pixels. A confocal optical system captures only the in-focus image while simultaneously eliminating flare. In addition, confocal technology can be used as a height sensor since only thin image planes of the same height are captured. The OLS4100 is equipped with an Olympus dual confocal system, enhancing optical performance for precise 3D images even with samples made up of materials with different reflectances. The circular pinhole point of laser light also produces a uniform confocal effect, enhancing contrast in every direction. Non-Confocal Confocal Non-Confocal Confocal Photomultiplier Photomultiplier Circular Confocal Pinhole Telan Lens Telan Lens 22
Detects Peak Intensity for Every Pixel Reflective Intensity Calculated Reflection Intensity Calculated Height Height Obtaining height information is a primary function of the OLS4100 and is achieved by moving the objective upward to detect the change of light intensity along the Z-axis. Olympus CFO (calculated focus operation) technology detects light intensity automatically in order to obtain discrete height data. The approximate curve of an ideal I-Z curve is calculated alongside the maximum brightness value and Z-axis information, which define each image pixel. CFO search technology significantly improves repeatability one of the most indispensable assets of a measurement tool. 10-nanometer resolution in the Z-axis direction to enable 3D surface contour measurement Horizontal (X-Y direction) resolution of 0.12 μm to enable high-definition image observation Violet laser enables non-contact observation and measurement 23
Sample Applications 1 2 Wafer Bump (objective 100x/optical zoom 1.5x/scanning area 85 μm x 85 μm) 2 Light Guide Panel (objective 50x/optical zoom 1x/scanning area 256 μm x 256 μm) Chip Pad (objective 50x/optical zoom 2x/scanning area 128 μm x 128 μm) Laser Dot on Light Guide Panel (objective 100x/optical zoom 1x/scanning area 128 μm x 128 μm) 3 4 1 2 Photomask (objective 20x/optical zoom 1x/scanning area 640 μm x 640 μm) Sample provided by Koshibu Precision Co., Ltd. (P3,P24) 2 Micro Lens (objective 100x/optical zoom 1x/scanning area 128 μm x 128 μm) Flexible PCB Connector (objective 50x/optical zoom 1x/scanning area 256 μm x 256 μm) MEMS (objective 20x/optical zoom 1.3x/scanning area 483 μm x 483 μm) 3 4 24
1 2 Diamond Electrocoating Tool (objective 50x/optical zoom 1x/scanning area 256 μm x 256 μm) 2 Carbon (objective 100x/optical zoom 1x/scanning area 128 μm x 128 μm) Ultra-Thin Pipe (objective 100x/optical zoom 1x/scanning area 128 μm x 128 μm) Adhesive Tape (objective 50x/optical zoom 2x/scanning area 128 μm x 128 μm) 3 4 5 6 7 Sandpaper #400 (3D) (objective 20x/optical zoom 1x/scanning area 640 μm x 640 μm) 6 Sandpaper #400 (2D) (objective 20x/optical zoom 1x/scanning area 640 μm x 640 μm) 7 Super-Density Fabric (3D) (objective 20x/optical zoom 1x/scanning area 640 μm x 640 μm) 25
Standard-Type OLS4100-SAF MAIN UNIT DIMENSIONS 276 358 COMBINATION SYSTEM DIMENSIONS 550 405 300mm-Stage-Type OLS4100-LAF Unit: mm 448 1300 26
LSM Section Light Source/Detector Light Source: 405 nm Semiconductor Laser, Detector: Photomultiplier Total Magnification 108x 17,280x Zoom Optical Zoom: 1x 8x Measurement Planar Measurement Repeatability 100x: 3σn-1=0.02 µm Accuracy Measurement Value ±2% Height Measurement System Revolving Nosepiece Vertical-Drive System Stroke Scale Resolution Movement Resolution 10 mm 0.8 nm 10 nm Display Resolution 1 nm Repeatability 50x: σn-1=0.012 µm Accuracy 0.2+L/100 µm or Less (L=Measuring Length) Color Observation Section Light Source/Detector Light Source: White LED, Detector: 1/1.8-Inch 2-Megapixel Single-Panel CCD Zoom Digital Zoom: 1x 8x Revolving Nosepiece Differential Interference Contrast Unit Objective Z Focusing Unit Stroke XY Stage Motorized BF Sextuple Revolving Nosepiece Differential Interference Contrast Slider: U-DICR, Polarizing Plate Unit Built-In BF Plan Semi-apochromat 5x, 10x LEXT-Dedicated Plan Apochromat 20x, 50x, 100x 100 mm 100x100 mm (Motorized Stage), Option: 300x300 mm (Motorized Stage) This product is designed for use in industrial environments for the EMC performance. Using it in a residential environment may affect other equipment in the environment Model Magnification Field of View Working Distance (WD) Numerical Aperture (NA) MPLFLN5X 108x-864x 2,560-320 µm 20.0 mm 0.15 MPLFLN10X 216x-1,728x 1,280-160 µm 11.0 mm 0.30 MPLAPON20XLEXT 432x-3,456x 640-80 µm 1.0 mm 0.60 MPLAPON50XLEXT 1,080x-8,640x 256-32 µm 0.35 mm 0.95 MPLAPON100XLEXT 2,160x-17,280x 128-16 µm 0.35 mm 0.95 27
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